// Created on: 1993-07-19
// Created by: Remi LEQUETTE
// Copyright (c) 1993-1999 Matra Datavision
// Copyright (c) 1999-2014 OPEN CASCADE SAS
//
// This file is part of Open CASCADE Technology software library.
//
// This library is free software; you can redistribute it and/or modify it under
// the terms of the GNU Lesser General Public License version 2.1 as published
// by the Free Software Foundation, with special exception defined in the file
// OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
// distribution for complete text of the license and disclaimer of any warranty.
//
// Alternatively, this file may be used under the terms of Open CASCADE
// commercial license or contractual agreement.

#ifndef _BRepTools_ShapeSet_HeaderFile
#define _BRepTools_ShapeSet_HeaderFile

#include <Standard.hxx>
#include <Standard_DefineAlloc.hxx>
#include <Standard_Handle.hxx>

#include <BRep_Builder.hxx>
#include <GeomTools_SurfaceSet.hxx>
#include <GeomTools_CurveSet.hxx>
#include <GeomTools_Curve2dSet.hxx>
#include <TColStd_IndexedMapOfTransient.hxx>
#include <TopTools_ShapeSet.hxx>
#include <Standard_OStream.hxx>
#include <Standard_IStream.hxx>
#include <TopAbs_ShapeEnum.hxx>

class TopoDS_Shape;

//! Contains a Shape and all  its subshapes, locations
//! and geometries.
//!
//! The topology is inherited from TopTools.
class BRepTools_ShapeSet : public TopTools_ShapeSet
{
public:
  DEFINE_STANDARD_ALLOC

  //! Builds an empty ShapeSet.
  //! @param theWithTriangles flag to write triangulation data
  Standard_EXPORT BRepTools_ShapeSet(const Standard_Boolean theWithTriangles = Standard_True,
                                     const Standard_Boolean theWithNormals   = Standard_False);

  //! Builds an empty ShapeSet.
  //! @param theWithTriangles flag to write triangulation data
  Standard_EXPORT BRepTools_ShapeSet(const BRep_Builder&    theBuilder,
                                     const Standard_Boolean theWithTriangles = Standard_True,
                                     const Standard_Boolean theWithNormals   = Standard_False);

  Standard_EXPORT virtual ~BRepTools_ShapeSet();

  //! Return true if shape should be stored with triangles.
  Standard_Boolean IsWithTriangles() const { return myWithTriangles; }

  //! Return true if shape should be stored triangulation with normals.
  Standard_Boolean IsWithNormals() const { return myWithNormals; }

  //! Define if shape will be stored with triangles.
  //! Ignored (always written) if face defines only triangulation (no surface).
  void SetWithTriangles(const Standard_Boolean theWithTriangles)
  {
    myWithTriangles = theWithTriangles;
  }

  //! Define if shape will be stored triangulation with normals.
  //! Ignored (always written) if face defines only triangulation (no surface).
  void SetWithNormals(const Standard_Boolean theWithNormals) { myWithNormals = theWithNormals; }

  //! Clears the content of the set.
  Standard_EXPORT virtual void Clear() Standard_OVERRIDE;

  //! Stores the geometry of <S>.
  Standard_EXPORT virtual void AddGeometry(const TopoDS_Shape& S) Standard_OVERRIDE;

  //! Dumps the geometry of me on the stream <OS>.
  Standard_EXPORT virtual void DumpGeometry(Standard_OStream& OS) const Standard_OVERRIDE;

  //! Writes the geometry of me on the stream <OS> in a
  //! format that can be read back by Read.
  Standard_EXPORT virtual void WriteGeometry(
    Standard_OStream&            OS,
    const Message_ProgressRange& theProgress = Message_ProgressRange()) Standard_OVERRIDE;

  //! Reads the geometry of me from the stream <IS>.
  Standard_EXPORT virtual void ReadGeometry(
    Standard_IStream&            IS,
    const Message_ProgressRange& theProgress = Message_ProgressRange()) Standard_OVERRIDE;

  //! Dumps the geometry of <S> on the stream <OS>.
  Standard_EXPORT virtual void DumpGeometry(const TopoDS_Shape& S,
                                            Standard_OStream&   OS) const Standard_OVERRIDE;

  //! Writes the geometry of <S> on the stream <OS> in a
  //! format that can be read back by Read.
  Standard_EXPORT virtual void WriteGeometry(const TopoDS_Shape& S,
                                             Standard_OStream&   OS) const Standard_OVERRIDE;

  //! Reads the geometry of a shape of type <T> from the
  //! stream <IS> and returns it in <S>.
  Standard_EXPORT virtual void ReadGeometry(const TopAbs_ShapeEnum T,
                                            Standard_IStream&      IS,
                                            TopoDS_Shape&          S) Standard_OVERRIDE;

  //! Inserts the shape <S2> in the shape <S1>. This
  //! method must be redefined to use the correct
  //! builder.
  Standard_EXPORT virtual void AddShapes(TopoDS_Shape&       S1,
                                         const TopoDS_Shape& S2) Standard_OVERRIDE;

  Standard_EXPORT virtual void Check(const TopAbs_ShapeEnum T, TopoDS_Shape& S) Standard_OVERRIDE;

  //! Reads the 3d polygons of me
  //! from the stream <IS>.
  Standard_EXPORT void ReadPolygon3D(
    Standard_IStream&            IS,
    const Message_ProgressRange& theProgress = Message_ProgressRange());

  //! Writes the 3d polygons
  //! on the stream <OS> in a format that can
  //! be read back by Read.
  Standard_EXPORT void WritePolygon3D(
    Standard_OStream&            OS,
    const Standard_Boolean       Compact     = Standard_True,
    const Message_ProgressRange& theProgress = Message_ProgressRange()) const;

  //! Dumps the 3d polygons
  //! on the stream <OS>.
  Standard_EXPORT void DumpPolygon3D(Standard_OStream& OS) const;

  //! Reads the triangulation of me
  //! from the stream <IS>.
  Standard_EXPORT void ReadTriangulation(
    Standard_IStream&            IS,
    const Message_ProgressRange& theProgress = Message_ProgressRange());

  //! Writes the triangulation
  //! on the stream <OS> in a format that can
  //! be read back by Read.
  Standard_EXPORT void WriteTriangulation(
    Standard_OStream&            OS,
    const Standard_Boolean       Compact     = Standard_True,
    const Message_ProgressRange& theProgress = Message_ProgressRange()) const;

  //! Dumps the triangulation
  //! on the stream <OS>.
  Standard_EXPORT void DumpTriangulation(Standard_OStream& OS) const;

  //! Reads the polygons on triangulation of me
  //! from the stream  <IS>.
  Standard_EXPORT void ReadPolygonOnTriangulation(
    Standard_IStream&            IS,
    const Message_ProgressRange& theProgress = Message_ProgressRange());

  //! Writes the polygons on triangulation
  //! on the stream <OS> in a format that can
  //! be read back by Read.
  Standard_EXPORT void WritePolygonOnTriangulation(
    Standard_OStream&            OS,
    const Standard_Boolean       Compact     = Standard_True,
    const Message_ProgressRange& theProgress = Message_ProgressRange()) const;

  //! Dumps the polygons on triangulation
  //! on the stream <OS>.
  Standard_EXPORT void DumpPolygonOnTriangulation(Standard_OStream& OS) const;

protected:
private:
  BRep_Builder                  myBuilder;
  GeomTools_SurfaceSet          mySurfaces;
  GeomTools_CurveSet            myCurves;
  GeomTools_Curve2dSet          myCurves2d;
  TColStd_IndexedMapOfTransient myPolygons2D;
  TColStd_IndexedMapOfTransient myPolygons3D;
  NCollection_IndexedDataMap<Handle(Poly_Triangulation),
                             // clang-format off
                             Standard_Boolean> myTriangulations; //!< Contains a boolean flag with information
                                                                 //!  to save normals for triangulation
  // clang-format on
  TColStd_IndexedMapOfTransient myNodes;
  Standard_Boolean              myWithTriangles;
  Standard_Boolean              myWithNormals;
};

#endif // _BRepTools_ShapeSet_HeaderFile
